癫痫灶定位中发作期源成像的作用。

Contribution of Ictal Source Imaging for Localizing Seizure Onset Zone in Patients With Focal Epilepsy.

机构信息

From the Department of Biomedical Engineering (S.Y., A.S., B.H.), Carnegie Mellon University, Pittsburgh, PA; Department of Biomedical Engineering (L.Y., Y.L.), University of Minnesota, Minneapolis; Mayo Clinic (M.T.K., B.B., C.N., G.A.W.), Rochester, MN.

出版信息

Neurology. 2021 Jan 19;96(3):e366-e375. doi: 10.1212/WNL.0000000000011109. Epub 2020 Oct 23.

DOI:10.1212/WNL.0000000000011109

PMID:33097598

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7884986/

Abstract

OBJECTIVE

To determine whether seizure onset zone (SOZ) can be localized accurately prior to surgical planning in patients with focal epilepsy, we performed noninvasive EEG recordings and source localization analyses on 39 patients.

METHODS

In 39 patients with focal epilepsy, we recorded and extracted 138 seizures and 1,325 interictal epileptic discharges using high-density EEG. We investigated a novel approach for directly imaging sources of seizures and interictal spikes from high-density EEG recordings, and rigorously validated it for noninvasive localization of SOZ determined from intracranial EEG findings and surgical resection volume. Conventional source imaging analyses were also performed for comparison.

RESULTS

Ictal source imaging showed a concordance rate of 95% when compared to intracranial EEG or resection results. The average distance from estimation to seizure onset (intracranial) electrodes is 1.35 cm in patients with concordant results, and 0.74 cm to surgical resection boundary in patients with successful surgery. About 41% of the patients were found to have multiple types of interictal activities; coincidentally, a lower concordance rate and a significantly worse performance in localizing SOZ were observed in these patients.

CONCLUSION

Noninvasive ictal source imaging with high-density EEG recording can provide highly concordant results with clinical decisions obtained by invasive monitoring or confirmed by resective surgery. By means of direct seizure imaging using high-density scalp EEG recordings, the added value of ictal source imaging is particularly high in patients with complex interictal activity patterns, who may represent the most challenging cases with poor prognosis.

摘要

目的

为了在手术规划前准确确定局灶性癫痫患者的癫痫起始区（SOZ），我们对 39 名患者进行了非侵入性 EEG 记录和源定位分析。

方法

我们对 39 名局灶性癫痫患者进行了记录和提取，共使用高密度 EEG 记录了 138 次癫痫发作和 1325 次发作间期癫痫放电。我们研究了一种新的方法，用于直接从高密度 EEG 记录中对癫痫发作和发作间期棘波的源进行成像，并对其进行了严格验证，以用于确定颅内 EEG 发现和手术切除体积的 SOZ 的非侵入性定位。同时还进行了常规源成像分析进行比较。

结果

与颅内 EEG 或切除结果相比，癫痫发作源成像的一致性率为 95%。在结果一致的患者中，从估计到癫痫发作（颅内）电极的平均距离为 1.35 厘米，在手术成功的患者中距离手术切除边界为 0.74 厘米。约 41%的患者被发现存在多种类型的发作间期活动；巧合的是，在这些患者中观察到一致性率较低和 SOZ 定位性能明显较差。

结论

使用高密度 EEG 记录的非侵入性癫痫发作源成像可以提供与侵入性监测获得的临床决策或经切除性手术证实的高度一致的结果。通过使用高密度头皮 EEG 记录直接进行癫痫发作成像，对于具有复杂发作间期活动模式的患者，癫痫发作源成像的附加价值特别高，这些患者可能代表预后不良的最具挑战性病例。

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